Photonics and Optics

While 20th-century technology was defined by the growth of electronics, the 21st century belongs to photonics. LEDs will light households powered by photovoltaic panels and filled with displays and cameras communicating by optical fiber to distant owners wearing virtual reality glasses. Laser 3D printing will transform manufacturing. New microscopes and telescopes will peer into the depths of living cells and distant galaxies.Ìý

The MS-EE on Coursera's photonics curriculum provides a firm theoretical foundation on the generation, modulation, radiative or guided transmission, sensing, and detection of optical signals. It also coversÌýoptical telecommunications, medical instrumentation, photovoltaic power generation, information processing, optical instruments, and environmental sensing. While some of these industries are mature, photonics continues to grow into new industries such as LED lighting and on-chip silicon photonics for multi-core CPUs.

Looking for a specific course? Check out theÌýCourse List.

ÌýÌý Specializations

Optical Engineering Specialization (Pathway) (3Ìýcredits)

Instructor:ÌýRobert McLeod,ÌýPhD, Professor

Active Optical Devices Specialization (3 credits)

Instructor:ÌýJuliet Gopinath,ÌýPhD, Professor

Quantum Mechanics for Engineers Specialization (3 credits)

Instructor:ÌýWounjhang Park,ÌýPhD, Professor

Semiconductor Devices Specialization (Pathway)Ìý(3 credits)

Instructor:ÌýWounjhang Park,ÌýPhD, Professor

Ìý Certificates

To complete a certificate, you must complete the following required specializations/courses.

Semiconductor Photonics GraduateÌýCertificate (9Ìýcredits)

Required specializations:

  • Optical Engineering Specialization
  • Semiconductor Specialization
  • Active Optical DevicesÌýSpecialization

Ìý Watch recording to learn more.